RU2622838C1 - Fire-extinguishing composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to aqueous foam solutions based on surface-active agents (SAA) and can be used to extinguish combustible materials and highly flammable liquids in an open space and under the conditions of volume fire areas indoors. Fire-extinguishing composition comprises a film forming water-based foam and an additive reducing solution freezing temperature, wherein sodium hydrogencarbonate and sucrose are used as additive in the following ratio in wt %: sodium hydrogencarbonate - 10-13; sucrose - 2-5; film-forming foam - 5-7; water - the rest. A mixture of sodium lauryl ether sulphate and lauramine oxide is used as film-forming foam at a ratio of 1:3.

EFFECT: invention enables to improve the efficiency of extinguishing fire areas with high-expansion foam and reduce the time of fire extinguishing during storage and usage of a foaming composition at low temperatures both on horizontal and vertical surfaces due to the formation of a stable cooling heat-insulating water film and increase in foam hydrostatic stability.

3 cl, 6 ex, 3 tbl

Description

The invention relates to aqueous solutions of foaming agents based on surface-active substances (surfactants) and can be used to extinguish combustible materials and flammable liquids in open space and in conditions of volumetric fire sources in rooms.

It is known to use emulsions and foamed emulsions as a fire extinguishing composition for the preparation of confectionery products based on proteins of milk, soy, eggs and plants in combination with water-soluble polysaccharides, for example sucrose (patent for invention RU No. 2350232 C2 of 09.26.2003 and patent for invention GB No. 2179043).

However, the use of such compositions for extinguishing fires is not possible due to their low fire resistance and instability of the foamed emulsion, to maintain which, in addition, stabilizers are used that also prevent the formation of an insulating water film.

Also known is a fire extinguishing composition, which includes a foaming agent, including an anionic surfactant, water and an additive - a mixture of calcium chloride and magnesium chloride, in the following ratio of components, weight. %: Surfactant - 0.75 ÷ 2.2; calcium chloride - 0.02 ÷ 0.12; magnesium chloride - 0.005 ÷ 0.04; water - the rest (copyright certificate SU No. 865303, publ. 09/23/1981). As a result of adding calcium chloride and magnesium chloride to the mixture, the fire fighting time is reduced, the cost of the extinguishing composition is minimized, which generally increases the extinguishing efficiency of the composition.

Also known composition for extinguishing fires containing hydrated magnesium chloride (copyright certificate SU No. 1780774, publ. 15.12.1992). The increase in fire extinguishing efficiency in the known solution is achieved through the use of water-soluble polar liquids (alcohols, esters, glycols, amines) to dissolve bischofite (a natural crystalline salt containing 88-99% MgCl ₂ ⋅ 6Н ₂ О).

This composition has a high fire extinguishing efficiency, but it can not be used to extinguish fires in storage at low temperatures. In addition, due to the formation of an extremely unstable film due to the presence of polar liquids, an oxidizing agent enters from the environment to the combustion surface. As a result of this, repeated ignition is possible.

Also known is a fire extinguishing composition containing a surfactant - 12 ÷ 24 wt.%, Higher fatty alcohol (C ₆ -C ₁₂ ) - 1,5 ÷ 3,0 weight. % and water (patent for the invention RU No. 2157710 C1, publ. 20.10.2000). In order to increase frost resistance and reduce corrosion activity, ammonium acetate is introduced into the composition of the foaming agent in an amount of 10 ÷ 52 weight. %

It should be noted that with an increase in the content in the known composition of ammonium acetate, which affects the frost resistance and corrosion activity of the fire extinguishing composition, the foam stability decreases and, accordingly, the fire extinguishing efficiency of the generated foam decreases.

A fire extinguishing composition is also known (patent for the invention RU No. 2290240 A62D 1/02. Fire extinguishing composition / Dushkin A.L., Karpyshev A.V., Ryazantsev N.N. // declared. 09.06.2005, publ. 12.27.2006) , which contains magnesium chloride hydrate in the form of an aqueous solution and a water-based film-forming foaming agent in the following ratio of components in volume percent of the total extinguishing composition: an aqueous solution of magnesium chloride hydrate - 85 ÷ 88%, the water-based film-forming foaming agent - the rest. The content of magnesium chloride in the extinguishing composition is 15 ÷ 25 weight. % of the total amount of extinguishing agent.

However, this invention has several disadvantages: 1) the use of unstable low to 10 units of pitch based on organofluoric acids, for example, "PO-6A3F", "Light water", "Sthamex-AFFF" does not provide the necessary reduction in the extinguishing time of fires, 2) the proposed the foam-forming composition cannot be used at low temperatures (below -35 ° C) in the Far North in the event of fires at gas and oil production facilities.

Closest to the claimed invention is a fire extinguishing composition (patent for invention RU No. 2310421. Combined fire extinguishing composition / Nosov G.I., Byakov A.V., Landyshev N.V., Fakhrislamov R.Z. // Decl. 04/20/2005 , published on November 20, 2007) containing urea in an amount of 65-70 wt. %, ammonium silicate 1.2-1.5 wt. %, ammonium chloride 0.35-0.5 wt. %, ammonium sulfate 0.15-0.2 wt. %, sodium bicarbonate 0.25-0.4 wt. %, sodium sulfate 0.5-0.7 wt. %, alunite 1.0-1.25 wt. %, surfactant 1.5-1.8 wt. % and water up to 100 wt. %

The disadvantages of the closest analogue include the complexity of the preparation of the fire extinguishing composition and its multicomponent. In addition, the composition described above cannot be used at low temperatures due to the high urea content of 65-70 wt. % and its crystallization. When extinguishing fires with the composition described above, a significant amount of harmful substances is formed: hydrochloric acid, sulfuric acid and ammonia, which makes it difficult to use it to extinguish fires in closed rooms due to the threat of poisoning firefighters.

The objective of the invention is the formation on the combustion surface of a stable stable heat-insulating water film in the low-temperature zone, due to the creation of high-pressure air-mechanical foam, which prevents the flow of oxygen from the atmosphere to the source of ignition and the evaporation of volatile substances from the burning surface into the surrounding space. In this case, the extinguishing composition must be stored and operated without reducing the extinguishing efficiency in a wide range of low temperatures - up to -55 ° C.

The problem is solved in that the fire extinguishing composition includes a film-forming foaming agent based on water and an additive that reduces the freezing temperature of the solution, while sodium bicarbonate and sucrose are used as additives in the following ratio of components, wt. %:

sodium bicarbonate 10-13 sucrose 2-5 foaming agent 5-7 water rest

In addition, a fire extinguishing composition is claimed in which, along with the above-described features, a mixture of anionic and nonionic surfactants is used as a film-forming foaming agent in a ratio of 1: 3.

A fire extinguishing composition is also claimed in which sodium laureth sulfate and a nonionic surfactant, lauramine oxide, are used as the anionic surfactant.

The technical result is to increase the efficiency of extinguishing fires with high-foam and to reduce the time to extinguish fires during storage and use of a foaming composition at low temperatures (up to -55 ° C) on both horizontal and vertical surfaces due to the formation of a stable cooling heat-insulating water film and increase the hydrostatic resistance of the foam.

As an additive, an aqueous solution of sodium bicarbonate (NaHCO ₃ ), an aqueous solution of sucrose, a film-forming foaming agent, the contents of which were selected experimentally by the authors, are used. Due to the use of sucrose in the extinguishing composition, the freezing temperature of the solution decreases and the possibility of the formation of a heat-insulating water film in the low temperature zone - up to -55 ° C. In addition, the use of a film-forming foaming agent as a mixture of anionic and nonionic surfactants at a ratio of 1: 3 increases the stability and stability of the extinguishing agent.

The inventive fire extinguishing composition can be prepared as follows. Sodium bicarbonate, sucrose, film-forming foaming agent are successively dissolved in a small amount of water. Then, water is added to the resulting solution to comply with the claimed ratio.

As a water-based foaming agent, water-based foaming agents based on sodium laureth sulfate (anionic surfactant) and lauramine oxide (nonionic surfactant), for example, with a sodium laureth sulfate content of about 10-15 wt. % and lauramine oxide of the order of 3-5 wt. %

When extinguishing fires, the claimed composition from the tank through the foaming agent is fed to the source of ignition. The resulting foam creates a stable protective layer on the burning surface, preventing the flow of oxygen to the surface of the burning liquid. In addition, this film helps to cool the surface of the source of ignition, and sodium bicarbonate, due to thermal decomposition, emits carbon dioxide. The process of extinguishing the flame is intensified and, accordingly, the time to extinguish the fire is reduced.

Due to the use of surfactants, a high-fold air-mechanical foam is created, which makes it possible to effectively suppress ignition sources due to the stable film formation on the combustion surface and the cessation of oxygen access. The use of an aqueous solution of sodium bicarbonate leads to its thermal decomposition with the release of carbon dioxide, which prevents the further occurrence of the redox reaction and the cessation of the fire. In addition, the use of an aqueous solution of sodium bicarbonate, sucrose and surfactant in the indicated proportions reduces the freezing temperature of the solution, which is undoubtedly important when storing the composition at low temperatures.

In the table. 1 shows the experimental data on the freezing time of aqueous solutions of sucrose (C ₁₂ H ₂₂ O ₁₁ , GOST 5833-75, GOST 21-94) at temperatures minus -25, -35, -45, -55 ° C.

An increase in the sucrose content in the solution leads to an increase in its freezing time. At 10 wt. % sucrose in water, the freezing time of the solution exceeds 80 minutes Even a small sucrose content in the solution significantly affects the freezing time of the solution. So, at 1 wt. % sucrose in water, the freezing time of the solution at -25 ° C is 9 min, and at -35 ° C the time is 4 min. With a significant content of sucrose in water (10 wt.% Or more), the freezing time of the solutions increases significantly, which is necessary to increase the frost resistance of the antifrosty additive. However, a further increase in the sucrose content in the solution (more than 10 wt.%) Leads to an increase in the cost of the extinguishing agent and the crystallization of sucrose from the solution at low temperatures. Optimal is the sucrose content in the range of 3-7 wt. % However, it should be noted that the freezing time of a sucrose solution with its content of 12 wt. % and a temperature of minus -55 ° C reaches 12 min.

Example.

In accordance with the claimed invention, six variants of a fire extinguishing composition were prepared. As a foaming agent used detergent under the trademark "Fairy" with a content of sodium laureth sulfate 15 wt. % and lauramine oxide 5 wt. %

In the table. 2 shows the experimental data on the freezing time of aqueous solutions of developed fire extinguishing compositions at temperatures of minus -25, -35, -45, -55 ° C.

Analysis of the results of the table. 2 showed that an increase in the content of foaming agent, sucrose and NaHO ₃ in the solution leads to an increase in its freezing time. Optimum values for the freezing time of the extinguishing agent were achieved with a total content of foaming agent, sucrose and NaHCO ₃ from 17% to 25 wt. % The total presence of a foaming agent, sucrose and NaHCO ₃ in an aqueous solution below 17 wt. % leads to rapid freezing of the extinguishing agent. With a high content of foaming agent, sucrose and NaHCO ₃ in water (more than 25 wt.%), The freezing time of the solutions increases, however, this leads to a rise in the cost of the extinguishing agent and crystallization of sucrose and sodium bicarbonate from the solution at low temperatures.

In the table. 3 shows a comparative characteristic of the proposed fire extinguishing composition and the closest analogue.

Analysis of the results presented in table. 3 showed that a high-fold foam based on an aqueous solution of sodium bicarbonate (NaHCO ₃ ), an aqueous solution of sucrose, a film-forming foaming agent (inventive composition), ceteris paribus, has a higher hydrostatic resistance and multiplicity of foam compared to the prototype. From the obtained experimental data it also follows that the patented fire extinguishing composition has high fire extinguishing efficiency during prolonged storage at low temperatures (up to -55 ° C) and can be used in fire extinguishing means for various purposes to extinguish ignitions of flammable liquids and other combustible materials in various climatic conditions . The known composition (the closest analogue) begins to crystallize from an aqueous solution at low negative temperatures (due to the high content of urea - 65-70 wt.%), Which does not allow its use at negative ambient temperatures. In addition, when extinguishing fires with a known composition (the closest analogue), a large amount of harmful substances is formed: hydrochloric, sulfuric acid and ammonia. All this complicates its use in extinguishing fires in enclosed spaces due to the threat of poisoning of firefighters (rescuers) and injured in cases of unforeseen evacuation.

Claims (4)

1. Fire extinguishing composition, characterized in that it includes a film-forming foaming agent on a water basis and an additive that reduces the freezing temperature of the solution, while sodium bicarbonate and sucrose are used as additives, in the following ratio, wt.%: sodium bicarbonate 10-13 sucrose 2-5 foaming agent 5-7 water rest 2. Fire extinguishing composition according to claim 1, characterized in that as a film-forming foaming agent, a mixture of anionic and nonionic surfactants is used at a ratio of 1: 3. 3. Fire extinguishing composition according to claim 2, characterized in that sodium anurethane and nonionic surfactant — lauramine oxide — are used as the anionic surfactant.